|Publication number||US6922816 B1|
|Application number||US 09/645,172|
|Publication date||Jul 26, 2005|
|Filing date||Aug 24, 2000|
|Priority date||Aug 24, 2000|
|Publication number||09645172, 645172, US 6922816 B1, US 6922816B1, US-B1-6922816, US6922816 B1, US6922816B1|
|Inventors||Sandip A. Amin, James Lee Lentz, Minh Nguyen|
|Original Assignee||International Business Machines Corporation|
|Export Citation||BiBTeX, EndNote, RefMan|
|Patent Citations (7), Referenced by (99), Classifications (11), Legal Events (6)|
|External Links: USPTO, USPTO Assignment, Espacenet|
The present invention relates to adjusting setting values for a computer system, and more particularly to slider controls with variable sensitivity for adjusting setting values.
With the continued advancement of digital processing systems, software applications are used now to perform many of the tasks previously performed using physical devices.
For example, a computer system management application allows administrators of the system to assign how much data storage space is available for specific users of the system. Because storage is typically measured in megabytes or gigabytes, the potential range of settings is huge. Direct manipulation controls such as slider controls for defining the amount of storage assigned thus face a problem—a single mapping between movement of the mouse and movement of the slider control will either facilitate gross changes in value or small changes in value but not both. This is a particular problem when a length of the slider control is small when compared to the range of assigned values within that length.
In more concrete terms, say 100 megabytes of storage are available to be assigned using a slider control, with the left-hand side representing 0 megabytes and the right-hand side representing 100 megabytes. The administrator wants to assign exactly 25 megabytes. With a single mapping between mouse movement and slider movement on the screen, the administrator will easily be able to set the slider to approximately 25 megabytes by moving the mouse to the right or left based upon the length between the left hand side and the right hand side. However, in many cases it will be very difficult to set the slider to exactly 25 megabytes because the slightest nudge of the mouse position will cause the value to change by a large number of bytes (e.g., possibly on the order of several hundred or thousand) due to the ratio of the range of assigned values to the length between the left hand side and right hand side.
Accordingly, many applications require a subtask in which the user must precisely specify a value to many degrees of precision. Adjusting settings for these tasks often requires selection of a preset precision value from a list for performing fine adjustments. Alternatively, slide bars that allow coarse adjustments of limited precision between a preset minimum and maximum value for a setting are also sometimes used for selection of a value. Accordingly, what is needed is a system for allowing both coarse adjustments and fine adjustments to be made on an application utilizing one slider bar.
The present invention addresses such a need.
Aspects for allowing adjustment of a setting via a slider bar displayed on a graphical user interface are provided. These aspects include providing a slider bar control button for the slider bar, and integrating fine and coarse adjustment control into the slider bar control button to allow precise manipulation of a value for the setting. The provision of a slider bar control button includes providing a thumbwheel control button with a central area for coarse adjustment control through repositioning of the thumbwheel control button, a top button substantially adjacent and above the central area for fine adjustment control to increase a setting value by a predetermined increment, and a bottom button substantially adjacent and below the central area for fine adjustment control to decrease a setting value by a predetermined increment. Alternatively, providing a slider bar control button includes providing a three section bar with a first section for coarse adjustment, a second section for fine adjustment up, and a third section for fine adjustment down. In yet another alternative, providing a slider bar control button includes providing a zoom control button that allows adjustment to a scale displayed for setting values and responds to separate selection interface means to increase and decrease the scale.
With the present invention, a slider control with variable sensitivity is achieved through a slider bar control button with integrated coarse and fine adjustment capabilities. The slider bar control button allows more intuitive interaction for setting a value, while relying purely on direct manipulation (e.g., dragging with a mouse pointer). Further, the various embodiments also provide “affordances” or visual indications of the potential actions available to the user to increase the intuitive nature of the interaction. These and other advantages of the present invention will be more fully understood in conjunction with the following detailed description and accompanying the drawings.
The present invention relates to precise adjustments of value settings through slider controls for software applications. The following description is presented to enable one of ordinary skill in the art to make and use the invention and is provided in the context of a patent application and its requirements. Various modifications to the preferred embodiment and the generic principles and features described herein will be readily apparent to those skilled in the art. Thus, the present invention is not intended to be limited to the embodiment shown but is to be accorded the widest scope consistent with the principles and features described herein.
The present invention is implemented in a computer. In the preferred embodiment the present invention is implemented in a computer, which includes client programs, also known as application programs. One of ordinary skill in the art will recognize that any computer configuration may be used to implement the present invention, including a configuration wherein the client programs are resident in any computer.
The computer 50 operates under the control of an operating system (“OS”) 66, such as MVS®, AIX®, UNIX®, OS/2®, WINDOWS®, WINDOWS NT®, etc., which typically is loaded into the memory 104 during the computer 50 start up (boot-up) sequence after power-on or reset. In operation, the OS 66 controls the execution by the computer 50 of computer programs 68, including computer programs. Alternatively, a system and method in accordance with the present invention may be implemented with any one or all of the computer programs 68 embedded in the OS 66 itself without departing from the scope of the invention. Preferably, however, the client programs are separate from the computer programs.
The OS 66 and the computer programs 68 each comprise computer readable instructions which, in general, are tangibly embodied in or are readable from a media such as the memory 54, the data storage device 56 and/or the data communications device 58. When executed by the computer 50, the instructions cause the computer 50 to perform the steps necessary to implement the present invention. Thus, the present invention may be implemented as a method, apparatus, or an article of manufacture (a computer-readable media or device) using programming and/or engineering techniques to produce software, hardware, firmware, or any combination thereof.
In accordance with the present invention, various embodiments for a slider bar control button with integrated fine and coarse adjustment capabilities are presented that allow intuitive and direct manipulation of value settings displayed on a graphical user interface of the computer 50. These adjustment capabilities are provided via conventional programming techniques that are associated with a graphical user interface in a computer system.
Referring now to
To more particularly describe the application of this equation, refer now to the following. Assume, for example, the value from a leftmost position XMIN of the slider is 0 and the value of the rightmost position is 500. Also assume that length between the leftmost and rightmost positions is 200 pixels on a display screen. Assume also the initial assignment value is 250 or the halfway point between the leftmost and rightmost position.
Accordingly, the conversion of the slider value into the appropriate coordinate is accomplished in accordance with the equation
SLIDER POS=Slider Value (XMAX−XMIN/(MAXVALUE−MINVALUE)
For the above example, where XMAX−XMIN=200,
The above equation yields
SLIDERPOS=250 (200/500)=100 pixels
Accordingly, with this set of assumptions, the slider position would be at 100 pixels or half way between the rightmost and leftmost positions.
Referring back to
If the coordinate of the slider position is at the rightmost position on the scale (XMAX), is less than the current position of the mouse pointer (XPOS), then the slider position is equal to XPOS position, via step 306. Thereafter, the slider bar moves to a slider position, via step 310. On the other hand, if the screen X coordinate of the rightmost position of the pointer is greater than the current position of the mouse pointer, then the slider position is equal to the highest position on the scale, via step 308, and the slider bar is moved to that slider position, via step 310. This adjustment of the bar position via step 302—310 continues until the selection button is no longer selected, via step 312. Once the adjustment to the position is stopped, the x coordinate for the position is converted to a setting value on the slider, e.g., according to the equation shown, via step 314. It should be noted that the equation is the same as that noted with respect to
Referring now to
The following is an example of an application of the slider control with variable sensitivity. This example will employ the embodiment represented in FIG. 6. The following is a detailed description of how the embodiment in
Assume that 100 megabytes of storage are available to be assigned using a slider control, with the left-hand side representing 0 megabytes and the right-hand side representing 100 megabytes. The administrator wants to assign exactly 25 megabytes.
The initial position of the slider is a setting of 0 megabytes, the leftmost possible position of the control. “0” is displayed in the text box (608). Furthermore, in this example, we will assume that the absolute precision of the control is 100 bytes and that a single click of the fine adjustment controls 604 and 606 will change the setting by 100 bytes. First the user makes the coarse adjustment by dragging the slider control to the right, approximately 25% of the width of the slider control.
The user positions the mouse pointer over the central part of the slider control (602). The user depresses the select button and moves the mouse to the right until the slider control (600) is approximately 25% of the settable range of the control and releases the mouse button. The value in the text box (608) will typically be near the desired setting but not exactly. For purposes of illustration, we will say that this coarse movement set a value of 25,000,500.
Next the user makes a fine adjustment to set the value to exactly 25,000,000. The user moves the mouse down slightly until the mouse pointer is above the “down” adjustment (606). The user then depresses and releases (clicks) the mouse button 5 times. As is shown in
In an alternate embodiment, a slider bar control button 700 also provides integrated fine and coarse adjustment capabilities, as shown in FIG. 8. The area of the slider bar control button 700 (called the “thumb”) that can be manipulated is divided into three sections that are sensitive to mouse selections/“clicks”. A first section 702, marked in the illustration with “<<>>”, is dragged to the right or left for coarse settings. Second and third sections 704 and 706, marked with “<” and “>”, are positioned adjacent to the first section 702 and are used to make fine adjustments up or down from the coarse setting.
The embodiment of
As in the embodiment of
Thus, for the purposes of the slider bar control button 700, preferably the following speeds are associated with the sections 702, 704, and 706:
In another embodiment, fine and coarse adjustment integration into a slider bar control button affect the scale of the slider control and do not affect the manner in which the slider bar control button moves. The process includes the initial setup (step 100 of FIG. 2), as shown in
Once the slider bar is initialized, slider movement occurs according to the steps shown for coarse adjustments in the flow diagram of FIG. 4. However, the ability to more precisely adjust the setting value with the slider bar control button occurs through changes of the scale of the slider bar, i.e., when a “zoom” selection occurs with the slider bar control button.
By way of example,
As the magnitude of the scale is altered, the position of the slider bar control button changes accordingly. Suitable indications of available changes in the scale are provided with the slider bar control button, e.g., by “+” and “−” symbols on the slider bar control button 1000, as shown in
In accordance with the present invention, various embodiments for a slider bar control button with integrated fine and coarse adjustment capabilities are presented that allow intuitive and direct manipulation of value settings displayed on a graphical user interface of the computer 100.
Although the present invention has been described in accordance with the embodiments shown, one of ordinary skill in the art will readily recognize that there could be variations to the embodiments and those variations would be within the spirit and scope of the present invention. Accordingly, many modifications may be made by one of ordinary skill in the art without departing from the spirit and scope of the appended claims.
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|U.S. Classification||715/833, 715/788, 715/841, 715/732, 715/781, 715/784|
|International Classification||G06F3/048, G06F3/00, G06F3/033|
|Aug 24, 2000||AS||Assignment|
Owner name: INTERNATIONAL BUSINESS MACHINES CORPORATION, NEW Y
Free format text: ASSIGNMENT OF ASSIGNORS INTEREST;ASSIGNORS:AMIN, SANDIP A.;LENTZ, JAMES LEE;NGUYEN, MINH;REEL/FRAME:011121/0409
Effective date: 20000822
|May 23, 2006||CC||Certificate of correction|
|Jan 16, 2009||FPAY||Fee payment|
Year of fee payment: 4
|Mar 11, 2013||REMI||Maintenance fee reminder mailed|
|Jul 26, 2013||LAPS||Lapse for failure to pay maintenance fees|
|Sep 17, 2013||FP||Expired due to failure to pay maintenance fee|
Effective date: 20130726